TY - GEN
T1 - Enhanced mobility management schemes in HIP-based mobile networks
AU - Choi, Sang Il
AU - Koh, Seok Joo
PY - 2013
Y1 - 2013
N2 - The Host Identity Protocol (HIP) has been proposed as an identifier-locator (ID-LOC) separation scheme, in which the 128-bit Host Identity Tag (HIT) is used as an ID and the IP address of the host is used as a LOC. In HIP, the mobility control operations are performed based on a centralized Rendezvous Server (RVS) that acts as a mobility anchor for mobile nodes, in which all the HIP control messages are passed through the RVS server. However, this centralized mobility scheme has some limitation, such as the service degradation by a point of failure and the overhead of centralized anchor. In this paper, we propose the two schemes for distributed mobility management (DMM): HIP-DMM-Push and HIP-DMM-Pull. From the numerical analysis, it is shown that the proposed DMM schemes can provide better performance than the existing centralized scheme, and that the pull-based distributed control scheme (HIP-DMM-Pull) provides the best performance among the candidate mobility schemes in terms of the processing overhead at the central RVS server and the HIP connection setup delays.
AB - The Host Identity Protocol (HIP) has been proposed as an identifier-locator (ID-LOC) separation scheme, in which the 128-bit Host Identity Tag (HIT) is used as an ID and the IP address of the host is used as a LOC. In HIP, the mobility control operations are performed based on a centralized Rendezvous Server (RVS) that acts as a mobility anchor for mobile nodes, in which all the HIP control messages are passed through the RVS server. However, this centralized mobility scheme has some limitation, such as the service degradation by a point of failure and the overhead of centralized anchor. In this paper, we propose the two schemes for distributed mobility management (DMM): HIP-DMM-Push and HIP-DMM-Pull. From the numerical analysis, it is shown that the proposed DMM schemes can provide better performance than the existing centralized scheme, and that the pull-based distributed control scheme (HIP-DMM-Pull) provides the best performance among the candidate mobility schemes in terms of the processing overhead at the central RVS server and the HIP connection setup delays.
KW - Distributed mobility control
KW - HIP
KW - Inter-Domain
KW - Mobile Networks
KW - Rendezvous Server
UR - http://www.scopus.com/inward/record.url?scp=84876243754&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84876243754
SN - 9788996865018
T3 - International Conference on Advanced Communication Technology, ICACT
SP - 306
EP - 311
BT - 15th International Conference on Advanced Communication Technology
T2 - 15th International Conference on Advanced Communication Technology: Smart Services with Internet of Things!, ICACT 2013
Y2 - 27 January 2013 through 30 January 2013
ER -